Containers, along with reusable labeling constructions for use therewith

ABSTRACT

A reusable labeling construction for a container comprises a removable label and a label panel. The removable label, according to one of its embodiments, includes a strip constructed of a selected strip material having an area adapted to receive information corresponding to a recipient&#39;s address, and a layer of selected adhesive. The label panel is adapted to be supported by a container body and includes a transparent surface portion formed of a material to which the selected adhesive will adhere sufficiently to retain the label on the transparent surface portion during shipment, yet from which it may be removed without tearing the strip material.

BACKGROUND OF THE INVENTION

A fundamental need of commerce-based societies is the transportation ofgoods from one location to another. The development of various postalsystems, first on the national and then on an international basis,established an organized system wherein a carrier for a price wouldconvey a parcel from a sender to a recipient. The service provided bysuch carriers resulted in increasing demand and expansion of theirserved customer base. In addition to the governmentally sponsored postalservices, private carriers have been organized to transport a widevariety of parcels for paying customers. Such companies include thoseknown as United Parcel Service, Federal Express, DHL, Airborne andEmory, to name a few. The proliferation of such companies demonstratesthe increasing need for their services.

In addition to the ordinary demands on the parcel carrier industry, theexpansion of Internet commerce already has placed, and is expected tocontinue to place, increasing demands on the need to ship small parcelsfrom a merchant to a customer. The role of the parcel carrier isbecoming increasingly integral to the success or failure of consumer'son-line experience and business in general. Shippers know the importanceof having a dependable carrier who ultimately provides dependableservice to the end-use customer.

Conventional techniques for shipping parcels between senders andrecipients can be inconvenient and result in packing waste. For example,when a parcel is shipped in a container, such as a flexible pouch, acardboard box or the like, the sender typically creates a label for thecontainer, which includes the recipient's address as well as a returnaddress for the sender. It is quite common, for example, for anindividual sender to create a shipping package by packaging the parcelinto a container and affixing to the container a sticky label having theappropriate origin and destination address either printed or handwrittenthereon. The shipping package may then be taken to a governmentallysponsored postal service where it is weighed and applied withappropriate postage before being shipped to the destination locationcorresponding to the recipient's address. In similar fashion, a sendermay take the parcel to a private carrier where it is packaged andlabeled, with the private carrier taking responsibility for shipment.

Another manner of shipping parcels between senders and recipients whichis widely used is through the use of containers and labelingconstructions which are provided by carriers, such as Federal Express,to their customer base. Here, the sender prepares the shipping packageby placing the parcel in a container provided by the private carrier,and creates an appropriate shipping label on a form provided by theprivate carrier. In the Federal Express system, for example, theshipping label itself is a multi-sheet construction including anoriginal form and a plurality of duplicate forms releasably attachedthereto via perforation. Here, the multi-sheet shipping label is filledout to include the appropriate shipping information, as well as desiredhandling instructions for the carrier. Oftentimes, these formsadditionally have areas for including the sender's account number sothat charges are billed to an appropriate account, as well asappropriate tracking information utilized by the private carrier. Thesender maintains a “sender's copy” of the label before it is eitherpicked up by the carrier or deposited at an appropriate drop-offlocation, such as a drop-box maintained by the private carrier. In anyevent, when the shipping package is ultimately ready for shipment, thesender maintains a copy of the shipping label and a duplicate version ofthe shipping label is sealed within a shipping sleeve that is adhered tothe container, whether it be a box, a pouch or the like. There are avariety of other techniques for creating shipping packages which areutilized by individuals, as well as private and governmentally sponsoredcarriers, so that the above is only a snapshot of the various techniquesemployed in today's commerce.

A drawback of these illustrative techniques, as well as others employedtoday, is that the labeling constructions themselves and the containersfor the parcels are generally not reusable. Accordingly, there is muchpacking waste which is attendant with conventional shipping techniques,which inherently contributes to landfill waste and results in addedcosts and inconveniences to carriers and customers alike. Accordingly,there remains an increasing need to develop improved techniques tofacilitate the preparation of shipping packages through the use ofreusable containers and reusable labeling constructions, while at thesame time alleviating or reducing these drawbacks. The present inventionis particularly directed to fulfilling these needs.

Other drawbacks occur during the shipping and storage of electronicparts and components where it is desirable to protect the electroniccomponents from damage during handling. It is important for individualsworking with electronics to be properly grounded when the components arebeing handled, whether during shipment or storage of the components. Oneapproach for properly grounding users is through the use of a wristgrounding system worn by the user while the components are beingmanipulated. Another approach is to restrict handling of the componentsin rooms set up to eliminate the possibility of electronic discharge.Unfortunately, when service and repair people are in the filed, it canbe impracticable, inconvenient or time consuming to employ adequategrounding techniques such as these.

Accordingly, there also remains a need to provide a containerconstruction which is suitable for those exposed to electroniccomponents during shipping or storage thereof who don't have the benefitof working in a static-free environment, and particularly a flexiblecontainer construction which provides both adequate protection for thecomponents, while also allowing for safe discharge of any staticbuildup. The present invention is further directed to meeting theseneeds.

SUMMARY OF THE INVENTION

It is an object of the present invention to provide a new and usefullabel panel for use with a container that is adapted to receive a parcelfor shipment to an intended recipient.

Another object of the present invention is to provide a new and usefulreusable labeling construction for use with shipping containers.

A further object of the present invention is to provide a new and usefulcontainer adapted to receive a parcel for shipment to an intendedrecipient.

It is also an object of the present invention to provide such labelpanels, labeling constructions and containers which can be usedrepeatedly to ship parcels between senders and recipients in a parcelcarrier system.

It is still a further object of the present invention to providereusable label panels, labeling constructions and containers whichreduce costs and facilitate the manner by which parcels may be shippedbetween senders and recipients.

In accordance with these objects, the present invention is in one senserelated to a reusable labeling construction for use with a containerthat is adapted to receive a parcel for shipment to an intendedrecipient. The reusable labeling construction broadly comprises aremovable label and a label panel. The removable label includes a stripconstructed of a selected strip material and has an area adapted toreceive information corresponding to an address of the intendedrecipient. The removable label also is provided with a layer of selectedadhesive. The label panel is adapted to be supported by a body of thecontainer and includes a return address area for receiving informationcorresponding to a return address for the container, as well as atransparent surface portion overlaying at least the return address area.The transparent surface portion is preferably formed of a material towhich the selected adhesive will adhere sufficiently to retain the labelon the transparent surface portion during shipment, yet from which thelabel may be removed without tearing the strip material. The labelingpanel, itself, may be formed by a label substrate and a transparentlayer secured to the label substrate to create the transparent surfaceportion. Preferably, the label substrate is a stiff, rectangularplacard, which may be laminated, having the return address indiciapre-printed thereon at an appropriate location, such as centrally on theplacard. Alternatively, the return address indicia may be either reverseprinted on the placard's laminate or reverse printed on a surface of thetransparent layer facing the label substrate. The transparent layer ispreferably a layer of film adhered to the placard whereby the returnaddress indicia may be viewed therethrough. The transparent layer has anexposed surface portion of a release material, such as a silicone-likerelease material, to permit a conventional shipping label to be retainedthereon during shipment yet removed without tearing or leaving aresidue.

The label substrate can be constructed of any suitable material (such asclear vinyl or Lexan®) and may also include a tracking information areaadapted to receive tracking information provided by a carrierresponsible for delivering the parcel to the intended recipient,pre-paid postage information or postage charging information, and/orinventory tracking information associated with the container. In oneembodiment, the transparent layer is also rectangular in configurationand has a reduced surface area relative to the label substrate so thatit overlays only the return address indicia that is displayed on thelabel substrate. In another embodiment, the transparent layer is largersuch that it overlays more indicia, such as the send-to address area,the return-address area, the tracking information area, the pre-paidposting information or postage charging information area, etc.

The present invention also relates to a container adapted to receive aparcel for shipment, with the container broadly comprising a closablecontainer body having an interior and a mouth communicating with theinterior. The container body includes an outer surface portion providedwith the return address indicia and a transparent layer overlaying thereturn address indicia as discussed above. Alternatively, the containermay comprise a closable container body, a label substrate provided withthe return address indicia which is supported by the container body, anda transparent layer overlaying the return address indicia. It iscontemplated that such a container will be owned by a parcel carriersurface, such as UPS, Mail Boxes, Etc., FedEx, so that it can be leasedto customers for continual reuse.

The container preferably includes a closure movable between an openposition such that the parcel may be inserted into and removed from theinterior, and a closed position to retain the parcel in the interior asa received parcel. The container body is preferably formed as a flexiblepouch having a perimeter, with the pouch including first and second bodypanels joined about a majority of the perimeter to define a sealed edge,with an unjoined portion defining the mouth of the container. The labelsubstrate is preferably a stiff, rectangular placard sewn to one of thefirst and second body panels, with the transparent layer being a clearfilm adhered to the label substrate. The placard, its associatedlaminate, or the transparent layer may be provided with appropriateprinted indicia, as discussed above.

An alternative container construction is in the form of a flexible pouchfor use during the handling of electronic parts or components in orderto provided cushioned protection for the electronics, while alsoallowing for safe discharge of any static buildup. In this containerconstruction, the panels of the flexible pouch are preferably made ofconductive fabric interweaved throughout with conductive, stainlesssteel fibers/threads. A conductive lining may also be inserted into thepouch to create a modular container construction, with this liningincluding an outer conductive shell to provide both abrasion and shockresistance, and in inner conductive foam lining to provide a cushionedenvironment for the electronic parts/components.

Finally, a label panel is also provided for use with a container adaptedto receive a parcel for shipment to an intended recipient. The labelpanel broadly comprises a label substrate securable to a body of thecontainer, with this label substrate including return address indiciacorresponding to a return address for the container and a transparentfilm, as discussed above, which is adhered to the label substrate andoverlays at least the return address indicia.

These and other objects of the present invention will become morereadily appreciated and understood from a consideration of the followingdetailed description of the exemplary embodiments of the presentinvention when taken together with the accompanying drawings, in which:

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective view showing a representative parcel beinginserted into a first exemplary embodiment of a container of the presentinvention, which is in the form of a flexible pouch;

FIG. 2 is an enlarged top plan view showing a first exemplary embodimentof the reusable labeling construction of the present invention attachedto the top panel associated of the pouch in FIG. 1;

FIG. 3 is an enlarged top plan view of a first exemplary embodiment ofthe label panel according to the present invention, which is used withthe container of FIG. 1;

FIG. 4 is an enlarged cross-sectional view of the labeling constructionas viewed about line 4-4 in FIG. 2;

FIG. 5 is an enlarged top plan view of a second exemplary embodiment ofa reusable labeling construction of the present invention;

FIG. 6 is a perspective view showing a representative parcel beinginserted into a second embodiment of a container of the presentinvention, which is in the form of a cardboard box;

FIG. 7 is an enlarged cross-sectional view of the labeling constructionfor the container of FIG. 6, as viewed about line 7-7 therein;

FIG. 8 is an exploded perspective view of a third exemplary embodimentof a container according to the present invention, and showing ananti-static protective insert which may be used therewith;

FIG. 9 is an enlarged, partial cross-sectional view of the container asviewed about line 9-9 in FIG. 8; and

FIGS. 10(a) and 10(b), respectively, are outer and inner plan views ofthe container's anti-static protective insert illustrated in FIG. 8, andshowing the insert in an unfolded condition

DETAILED DESCRIPTION OF THE EXEMPLARY EMBODIMENTS

According to the present invention, then, a reusable labelingconstruction is provided for use with a container that is adapted toreceive a parcel for shipment to an intended recipient. Variouscontainer constructions and a methodology are also provided, each ofwhich may incorporate the various reusable labeling constructions of theinvention. In this regard, the present invention provides an improvementover the container (having associated labeling construction) which isdescribed in my co-pending application Ser. No. 09/956,478, thedisclosure of which is incorporated herein by reference.

With reference first to FIG. 1, a container 10 is shown which is in theform of a flexible pouch that is adapted to receive a parcel 12 in theinterior 14 thereof. Container 10 is shown to have a front pouch panel16 and a back pouch panel 18 which are rectangular in shape and arejoined about three edges, 21, 22 and 23 located at the perimeterthereof. Panels 16 and 18 are opened along a portion of the perimeter todefine a mouth 20 through which parcel 12 may be inserted into interior14 to define a received parcel. A zipper 30 includes a pull-tab 32 andis shown in an open position so that mouth 20 is open. The presentinvention contemplates that container 10 can take on a variety of forms,but is preferably constructed as described in my co-pending applicationSer. No. 09/956,478.

Front panel 16 of container 10 supports a reusable labeling construction40 having a label panel 42 adapted to be supported by front panel 16 andaffixed thereto in any convenient manner, such as adhesive, sealing,etc. Disposed on label panel 42 is a conventional address label 70containing information corresponding, for example, to an address of theintended recipient of parcel 12 as well as the address for the sender.Once parcel 12 has been received into the interior 14 of container 10,the container may be placed in a closed state by manipulating zipper 30to close mouth 20. Thus, zipper 30 provides a closure for container 10that is moveable between an open position such that the parcel 12 may beinserted and removed from the interior 14 of container 10, and a closedposition so as to retain the parcel 12 in the interior 14 as a receivedparcel. If desired also, a locking structure may be inserted throughgrommets 34 (only 1 shown) that are located proximately to the cornersof front and back panel 16, 18 and through pull-tab 32 to retain theclosure (such a zipper 30) in the closed position. A preferred lockingstructure is also discussed in my co-pending application Ser. No.09/956,478 in reference to FIG. 2 thereof.

The reusable labeling construction of the present invention, as well asany appropriate container which utilizes the same, such as container 10in FIG. 1, reduces inconvenience by facilitating the preparation ofshipping packages by a sender, while at the same time adding convenienceand reducing cost for parcel carriers. These advantages will becomeapparent as the invention is described in the context of its anticipateduse. However, the ordinarily skilled artisan should readily appreciatethat the context in which the invention may be used is for illustrativepurposes only and that the present invention should not be restricted tothis particular manner of use. With that in mind, reference is now madeto FIGS. 2-4 to discuss one exemplary embodiment for the labelingconstruction 40 according to the present invention. As discussed above,labeling construction 40 comprises a label panel 42 adapted to besupported by a body of the container, such as front panel 16, and aremovable label 70. As shown, label panel 42 preferably includes a labelsubstrate 43 that may be affixed to front body panel 16 by stitching 44such that it travels with the container at all times. As represented inFIG. 4, panel 16 may be a multi-layered construction having fabriclayers 34 and 36 sewn together about their margins with a cushioninglayer 35 sandwiched or interposed therebetween. Accordingly, it may beseen in FIG. 4 that label substrate 43 is secured most directly to upperfabric layer 34 by the stitching 44. Label substrate 43 may be in theform of a stiff, rectangular placard made of any suitable material suchas vinyl or Lexan® (available from General Electric Company Corporationof Pittsfield, Mass.), so that it is not subject to deformity or damageduring repeated use of the container. In addition to label substrate 43,label panel 42 preferably includes a transparent layer 50 that isdisposed on and overlays a portion of label substrate 43.

The construction for label substrate 43 is best appreciated withreference particularly to FIG. 3. It is contemplated that a containerthat is provided with a label panel such as that shown in the figureswill be owned by a parcel carrier, referred to throughout thisdescription as the “owner” of the container, and leased for a price to acustomer so that it may be reused many times. Accordingly, should thecontainer get misplaced during transit or for other reason need to bereturned to the parcel carrier owner, label substrate 42 allows for thisto be done in a very convenient manner. To this end, it may be seen inFIG. 3 that the label panel 42 is provided with return address indicia52 corresponding to the return address for the owner of the container(i.e. the parcel carrier in this example). This return address indiciamay be printed on the rectangular placard 43 with the transparent filmlayer 50 overlaying it so that the return address indicia 52 may be seentherethrough as shown in FIG. 3. Alternatively, the return addressindicia (or any other desired indicia for that matter) can be reverseprinted on either the placard's laminate or a surface of the transparentlayer 50 which faces the label substrate.

Also preprinted on the label substrate 43 is another area 53 in theupper left corner which is also provided with the owner's addressinformation 54 so that this address is visibly discernable at all timesduring transit. As shown in the figures, there are other types ofinformation that may be printed or otherwise applied to placard 43 tofacilitate shipping of the parcel. These may include, for example, atracking information area 55 where appropriate tracking information 56may be applied. This tracking information 56 may be in a variety offorms, such as a bar code, an alphanumeric designation, or the like.Also provided, preferably in the upper right hand corner is anotherregion 59 for receiving postage information 60. As shown in FIGS. 2 and3, the postage information 60 may be in the form of an account numberutilized by the sender and/or recipient which is printed on the labelsubstrate 43. Of course, as with the tracking information, the postageinformation can be in the form of an alphanumeric designation as shownor be present in a bar code format. Alternatively, of course, the upperright corner of label substrate 43 can simply be left blank but havesufficient room for application of postage stamps or the like. As alsoshown in the Figures, another region 57 may be provided for receivinginventory tracking information 58 associated with the particularcontainer for which the reusable label construction 40 is used, as wellas yet another region, 61 containing preprinted information 62 to alertusers that the container itself is reusable in the hope of preventinginadvertent disposal thereof.

Of course, the ordinarily skilled person should readily appreciate thatthe various types of information illustrated in the figures associatedwith the reusable labeling construction is for illustrative purposesonly to explain the preferred embodiment of the present invention andshould not in any way unduly limit or otherwise restrict the scope ofthe invention. For example, it may be that the sender, rather thanleasing a container from a parcel carrier actually owns the containerand its reusable label construction so that indicia 52 and 54 in FIGS. 2and 3 would correspond to the sender's address since the sender andowner in such case would be one and the same.

With continued reference particularly to FIGS. 3 and 4, transparentlayer 50 which overlays the owner's return address indicia 52 ispreferably formed as a film of a transparent plastic material wherebythe owner's address indicia may be seen therethrough. Layer 50 issurfaced with a coating or layer of release material such aspolytetrafluoroethylene or other suitable material. To this end, layer50 can be the ER4-C Economy Clear available from the Kennedy Group ofWilloughby, Ohio. Upon preparation of the shipping package, the senderprepares a removable label, such as label 70, which is formed as a stripof selected strip material 71. Disposed on strip 71 is a layer 72 ofsuitable adhesive material that is adapted to adhere to the exposedsurface portion of transparent layer 50. Label 70 can be a standardaddress label typically used on paperboard cartons and the like. Withreference again to FIG. 2, label 70 includes an area 75 adapted toreceive information 76 corresponding to the address of the intendedrecipient of the parcel. Another area 77 is provided to receiveinformation 78 corresponding to an address for the sender of the parcel.

Label 70 is adapted to be secured to transparent layer 50 in a manner sothat adhesive layer 72 will adhere sufficiently to transparent layer 50during shipment, yet from which the label 70 may be forcefully removedwithout normally tearing strip 71 during removal. This allows label 70to remain on container 10 throughout shipment, yet permits label 70 tobe removed from transparent layer 50 so that the container 10 and itsassociated labeling construction can be reused numerable times.

As discussed above, the labeling construction of the present inventioncan take on a variety of different forms. One such alternativeconstruction is shown in FIG. 5. Here, labeling construction 40′ isconstructed similarly as that discussed above, such that it includes alabel panel 42′ adapted to be supported by a body of the container, suchas a front panel 16′, and a removable label 70′. Also as discussedabove, label panel 42′ preferably includes both a label substrate 43′and a transparent layer 50′. In this embodiment of the labelingconstruction 40′, however, it may be seen that transparent layer 50′overlays a majority of the surface area of the label substrate 43′.Accordingly, transparent layer 50′ overlays more of the preprintedindicia that is either printed directly on the label substrate 43′ orreverse printed on the underside of it's laminated surface, as discussedabove. In this manner, it may be seen that a plurality of sticky labelscan be applied at appropriate locations on the exposed surface oftransparent layer 50′ so that they can be removed without tearing orleaving residue. For instance, a removable label 70′ containing indiciacorresponding to the recipient's address can be placed over thepre-printed owner's address information 52′. A return address sticker54′ can be placed over preprinted area 53′. In addition, a postagepre-paid sticker 60′ can be placed in the upper right hand corner overthe pre-printed postage account information 59′, and a tracking sticker56′ can be placed over the tracking information area 55′. Labelingconstruction 40′, thus, has added versatility so that these varioussticky labels, as desired, can be removably applied thereto to permit acontainer to be shipped repeatedly between senders and recipients whileat the same time having the preprinted indicia discussed above so thatit can be conveniently returned to the owner when necessary.

A second exemplary embodiment for a container and associated labelingconstruction of the present invention is shown in FIGS. 6 and 7. Here,container 110 is shown as a conventional box construction formed of asuitable material such as cardboard or the like, so that it isconstructed to be more stiff and rigid as compared to the flexible pouchcontainer above. In this embodiment, one of the container's box panels,such as upper panel 116, actually forms the label substrate 143 uponwhich the appropriate indicia 152 corresponding to the address of theowner/sender may be preprinted or otherwise provided. Overlaying thisindicia 152 is the transparent layer 150 as discussed above. In thismanner, and as shown in FIG. 7, a removable label 170 having anassociated adhesive layer 172 can be releasably applied to transparentlayer 150 as discussed above. Accordingly, the container construction110 shown in FIGS. 5 and 6 effectively eliminates the need for aseparate rectangular placard since one of the panels 116 of thecontainer body 110 accomplishes this purpose.

A third exemplary embodiment of a container construction according tothe present invention is shown in FIGS. 8 and 9. Container 210, as withcontainer 10 discussed above with reference to FIG. 1, is in the form ofa flexible pouch including a front pouch panel 216 and a back pouchpanel 218 which are rectangular in shape and joined about three edges,all as discussed above. As may be seen, a closure structure in the formof a zipper 230 is also provided so that the mouth 220 of the containercan be opened and closed as desired. Pouch 210 also includes grommets246 so that the mouth thereof can be locked in the closed configuration.A reusable labeling construction 240, which may be in any of theconstructions discussed above, is provided on front panel 216.

The difference in container 210 from that shown in FIG. 1 is thatcontainer 210 is particularly constructed for use with shippingelectronic components and parts. To this end, the panel layers 216 and218 are constructed to discharge static electricity. As shown in FIGS. 8and 9, each of top panel 216 and bottom panel 218 is a single layerconstruction sewn about their edge margins, such as left edge margin219, via sewing 221. Each of panels 216 and 218 is formed as aconductive fabric using conductive fibers which run through the fabric.As such, to this end, each of panels 216 and 218 is formed to include acloth layer, 226 and 228, respectively, that may be made of polyesterand stainless steel fabric. Cloth layers 226 and 228 are also preferablyformed of threads having fire retardant characteristics to prevent sparkdischarge. Suitable yarn having these characteristics is marketed underthe name Bekitex®. Interweaved in the fabric layers 226 and 228 are aplurality of conductive stainless steel fibers 222 and 224, such asthose marketed under the name Bekinox®. Of course, other suitablefabrics and fibers can be employed other than those particularlydescribed herein. Together, the fibers and yarns prevent the build-up ofstatic electricity and avoid spark discharges.

As best shown in FIG. 8, the conductive fibers are preferably arrangedthroughout the fabric layers as a plurality of rows 222 and columns 224,thereby to create a matrix array. Each of the rows and columns of thesestainless steel fibers are preferably spaced apart about ½ inch, whichshould adequately limit the amount of static build-up that can form onthe surface layer of the fabrics. Of course, this spacing can vary butit is understood that spacing the fibers with too much fabric betweenthem will increase the chance of static electricity forming.

As also shown in FIG. 8, a lining 270 may also be provided which issized and adapted for insertion into the open mouth 220 of container210. when so used, this creates a modular container construction. Lining270 serves a variety of useful purposes. On the one hand, it can linethe inside of container 210 and provide protection for parcels. As such,liner 270 provides abrasion and shock resistance for products shippedinside container 210. Importantly also, lining 270 also has anti-staticcharacteristics to alleviate the build-up of static electricity whenelectronic components are shipped. To this end, lining 270 isappropriately constructed in a manner which exhibits these capabilities.

As shown in FIGS. 8 and 10(a)-10(b), lining 270 is preferably anelongated rectangular member that is creased about a mid line 273 toform a pair of geometrically congruent panel sections 272 and 274 whichare oriented in a generally spaced apart, confronting relationship toone another during shipment, as shown in FIG. 8. Preferably, lining 270includes an outer conductive plastic shell 277 which is flexible yetsomewhat rigid to provide puncture resistance, and an anti-static foamlining 279 secured thereto in any appropriate manner, such as viaadhesive or the like. The conductive plastic layer 277 may be any of aline of conductive plastics available from the Inteplast Corporation ofLivingston, N.J., and marketed under the names ConPlast or ProfilePlastics. Anti-static foam lining 279 is preferably a polyethylene foamlaminated to conductive layer 277 and commonly referred to as “PinkPoly”. Pink Poly is currently used to protect electronic components andcan be manufactured as a thin liner, a bubble wrap, or foam of differingthicknesses. This foam lining is preferably soft, cushiony, and thethickness thereof can vary depending on the cushioning desired. Theintent is to employ a conductive material that will not allow a build-upof static charges. The advantage of this polyethylene foam is that itcan offer some cushioning when constructed in different thicknesses.This can be very helpful in the development of the anti-static system.

If desired also, although not shown in the drawings, a final layer ofprotection can be employed by placing the electronic component(s) insidea Mylar® bag and then placing the components inside the anti-staticlining construction 270. Alternatively, a thin film layer of Mylar®could be laminated to the polyethylene layer 279 if this foam layer 279ultimately presents a problem with breaking down or “littering” theelectronic component(s) after several uses. If a separate Mylar® bag isemployed, then this makes it possible to utilize the bag many times.Another shipping option could utilize a nylon/urethane insert for theshipping container, in addition to lining 270. Such an insert is notinherently anti-static but can be treated with a liquid film, throughknown processes utilized by manufacturers of dryer sheets and the like.Alternatively, a strip of conductive material could be attached tointerconnect the inside conductive plastic liner to the outer shell 277of lining 270, as well as the container's fabric layers 226 and/or 228utilizing an appropriate means, such as hook and loop fasteners.

As also seen in FIGS. 8 and 10(a)-10(b), a plurality of fasteningstructures are provided on lining 270 so that it can be removably, yetsemi-permanently, positioned within container 210. Of course,cooperative fastening structures (not shown) could be employed on theinner surfaces of the container's panels 216 and 218. To this end,fastening structures may be provided as cooperative hook fasteningstrips 275 (FIG. 10(a)) positioned along longitudinally and transverseedge margins of the lining's outer shell layer 277. These fasteningstrips 275 can be appropriately maintained on layer 277 throughadhesive, sewing or other appropriate securement means. With thisconstruction, the hook fastening strips 275 could directly engage thepanel layers 216 and 218 if they are appropriately constructed of afabric material which can cooperatively engage the hook fasteners.Alternatively, cooperative loop fastening strips could be secured to theinner surfaces of panel layers 216 and 218 at appropriate positionstherealong to engage hook fastening strips 275.

As shown in FIG. 10(b), cooperative hook and loop fastening strips 276and 276′ may be secured, respectively, to the inner foam surface 279 oflining 270. As such, when lining 270 is creased about crease line 273,panel sections 272 and 274 can also be fastened together to betterenvelop the electronic components during shipment and preventdislodgement.

With the above in mind relating to container and labeling constructionswhich are contemplated by the present invention, it should beappreciated that the present invention also contemplates a method ofshipping a parcel from a shipper located at an origin location to anintended recipient located at a destination location. According to thismethodology, various steps occur at the origin location, and these stepsmay be accomplished in any appropriate order. One of these steps relatesto the creation of the shipping package by packaging the parcel to beshipped into an individual reusable container that includes anenclosable container body having an interior and a mouth communicatingwith interior, and a label panel. The label panel, itself, includesowner address indicia corresponding to an address for an owner of thecontainer and an exposed transparent surface portion overlaying theowner address indicia so that the owner address indicia may be seentherethrough. The exposed surface portion formed of a release material.Another step contemplates the placement of a removable label onto thetransparent surface portion. The removable label includes a stripconstructed of a selected strip material and having a first surfaceprovided with information corresponding to an address for the intendedrecipient for the parcel. An opposed second surface region of theremovable label is provided with a layer of a selected adhesive so thatthe opposed second surface region of the label can be secured to theexposed surface portion during shipment to the intended recipient, yetremoved there from at the destination location with out tearing thestrip of material. According to the broad methodology, once the shippingpackage is created at the origin location, the terminal step in themethodology provides for delivery of the shipping package to thedestination location.

An alternative form of this methodology contemplates the shipment ofparcels between a plurality of shippers and a plurality of intendedrecipients. Each shipper is located at a respective origin location andeach intended recipient is located at a respective destination location.According to this methodology, a respective shipping package is createdat each respective origin location for a respective shipper in themanner discussed above. The respective shipping package is thendelivered to the destination location associated with the intendedrecipient, and these steps are repeated at each respective originlocation.

Accordingly, the present invention has been described with some degreeof particularity directed to the exemplary embodiments of the presentinvention. It should be appreciated, though, that the present inventionis defined by the following claims construed in light of the prior artso that modifications or changes may be made to the exemplaryembodiments of the present invention without departing from theinventive concepts contained herein.

1. A reusable labeling construction for use with a container that isadapted to receive a parcel for shipment to an intended recipient,comprising: a. a removable label including i. a strip constructed of aselected strip material and having an area adapted to receiveinformation corresponding to an address of the intended recipient, andii. a layer of a selected adhesive; and b. a label panel adapted to besupported by a body of said container, said label panel including atransparent surface portion formed of a material to which the selectedadhesive will adhere sufficiently to retain the label on the transparentsurface portion during shipment, yet from which the label may be removedwithout tearing the strip material.
 2. A reusable labeling constructionaccording to claim 1 wherein said label panel includes a substratehaving a return address area adapted to receive informationcorresponding to a return address for the container, said transparentlayer overlaying said return address area.
 3. A reusable labelingconstruction according to claim 1 wherein said label substrate includesa tracking information area adapted to receive tracking informationprovided by a carrier responsible for delivering the parcel to theintended recipient.
 4. A reusable labeling construction according toclaim 1 wherein said label substrate includes pre-paid postageinformation.
 5. A reusable labeling construction according to claim 4wherein the pre-paid postage information is printed on said labelsubstrate.
 6. A reusable labeling construction according to claim 1wherein said label substrate includes inventory tracking informationassociated with the container.
 7. A reusable labeling constructionaccording to claim 1 wherein said label substrate is a placard andwherein said transparent surface portion is a layer of film adhered tosaid placard.
 8. A reusable labeling construction according to claim 1wherein said release material is polytetrafluoroethylene.
 9. A reusablelabeling construction according to claim 1 wherein said removable layeris opaque.
 10. A reusable labeling construction for use with a containerthat is adapted to receive a parcel for shipment to an intendedrecipient, comprising: a. a label substrate adapted to be secured to abody of said container, said label panel including return addressindicia; b. a transparent layer secured to said label panel andoverlaying said return address indicia, said transparent layer includingan exposed surface portion formed of a release material; and c. aremovable label, including i. a strip constructed of a selected stripmaterial and having an area adapted to receive information correspondingto an address of an intended recipient of the received parcel, and ii. alayer of a selected adhesive which is adapted to adhere sufficiently tothe exposed surface portion of said transparent layer to retain thelabel on the transparent layer during shipment, yet from which the labelmay be forcefully removed without tearing the strip material.
 11. Areusable labeling construction according to claim 10 wherein saidrelease material is polytetrafluoroethylene and the removable label isopaque.
 12. A reusable labeling construction according to claim 10wherein said label substrate is a stiff, rectangular placard.
 13. Areusable labeling construction according to claim 10 wherein the returnaddress indicia corresponds to a return address for an owner of thecontainer.
 14. A reusable labeling construction according to claim 12wherein the return address indicia is pre-printed in a central locationon said placard.
 15. A reusable labeling construction according to anyof claims 10 and 12 wherein said transparent layer is adhered to saidlabel substrate.
 16. A reusable labeling construction according to claim15 wherein said transparent layer is a rectangular sheet of film havinga reduced surface area relative to said label panel.
 17. A reusablelabeling construction according to claim 10 wherein said label substrateincludes indicia thereon selected from a group consisting of: pre-paidpostage information, postage charging information, inventory trackingassociated with the container, and said return address indicia.